CN115367199A

CN115367199A - Manufacturing and packaging equipment based on intelligent vehicle-mounted equipment

Info

Publication number: CN115367199A
Application number: CN202211302198.XA
Authority: CN
Inventors: 李珂; 陈帅
Original assignee: Xuzhou Bodao Information Technology Co ltd
Current assignee: Xuzhou Bodao Information Technology Co ltd
Priority date: 2022-10-24
Filing date: 2022-10-24
Publication date: 2022-11-22
Anticipated expiration: 2042-10-24
Also published as: CN115367199B

Abstract

The invention discloses manufacturing and packaging equipment based on intelligent vehicle-mounted equipment, which belongs to the technical field of packaging equipment and comprises a rack, a feeding belt and a feeding belt, wherein a driving motor is assembled on one side of the rack, a driving screw is assembled at the tail end of the driving motor, a first sliding part is assembled on the driving screw and connected with the feeding belt through a driving arm, a bottom plate component, a top plate component and a support plate component are arranged on one side of the rack, a plurality of support plate components are arranged between the bottom plate component and the top plate component, a roller component is assembled at the top of the support plate components, and a cotton filling mechanism is assembled at the bottom of the support plate components.

Description

Manufacturing and packaging equipment based on intelligent vehicle-mounted equipment

Technical Field

The invention belongs to the technical field of packaging equipment, and particularly relates to manufacturing and packaging equipment based on intelligent vehicle-mounted equipment.

Background

In the production process of intelligent vehicle-mounted equipment, packaging and packaging are required before transportation, the packaging process comprises main processes of filling, wrapping, sealing and the like, and related front and back processes of cleaning, stacking, disassembling and the like.

At present, many small and medium-sized enterprises still use manpower to manually seal boxes, manual stacking equipment is needed, packaging cotton is filled between the equipment for buffering and energy absorption, and the efficiency of manual stacking is low and the labor cost is high.

Disclosure of Invention

Aiming at the defects in the prior art, the embodiment of the invention aims to provide manufacturing and packaging equipment based on intelligent vehicle-mounted equipment so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

the manufacturing and packaging equipment based on the intelligent vehicle-mounted equipment comprises a rack member, wherein the rack member comprises a rack, a feeding belt, a fixed shaft and a feeding belt, the feeding belt is assembled on the rack, the fixed shaft is arranged on one side of the feeding belt, one end of the feeding belt is rotatably assembled on the fixed shaft, and the feeding belt is assembled and connected with the feeding belt through a transmission belt;

the driving mechanism comprises a driving motor, a driving screw rod and a first sliding piece, the driving motor is fixedly assembled on one side of the rack, the tail end of the driving motor is connected with the driving screw rod in an assembling mode, the first sliding piece is assembled on the driving screw rod, one end of the first sliding piece is rotatably connected with a driving arm, and the tail end of the driving arm is movably connected with the feeding belt;

the bottom plate assembly comprises a bottom plate and side shafts, the bottom plate is arranged on one side of the rack, the side shafts are arranged on two sides of the bottom plate, and a roller assembly is further arranged on the top of the bottom plate;

the top plate assembly comprises a top plate, the top plate is arranged at one end of the bottom plate in parallel, two side shafts are arranged on two sides of the top plate, and a cotton filling mechanism is further arranged at the bottom of the top plate;

the cotton filling device comprises a carrier plate assembly, a plurality of groups of carrier plates and a plurality of rolling roller assemblies, wherein the carrier plate assembly comprises carrier plates, empty grooves and spacing plates, the plurality of groups of carrier plates are parallelly distributed between a bottom plate and a top plate, the empty grooves are distributed at the tops of the carrier plates, the spacing plates are distributed at the bottoms of the carrier plates, the rolling roller assemblies are assembled in the empty grooves, the cotton filling mechanism is assembled at one side of the spacing plates, and side grooves are also distributed at two sides of each carrier plate;

the cotton filling mechanism comprises a cavity channel, a butting block, a cotton wheel and a pressing wheel, wherein the cavity channel is arranged between the support plate and the partition plate, the butting block is elastically and movably inserted into the partition plate, one end of the butting block is fixedly provided with a cutting knife, the cotton wheel is assembled outside the support plate, and the pressing wheel is assembled on one side of the cavity channel and is in linkage arrangement with the cotton wheel;

the roller component comprises a wheel carrier, an elastic seat and material rolling wheels, the wheel carrier is movably arranged at one end of the support plate and one end of the base plate, the wheel carrier is elastically connected with the base plate and the support plate through the elastic seat, and the wheel carrier is further provided with a plurality of material rolling wheels in an array mode.

As a further aspect of the present invention, the driving mechanism further includes a second sliding member and a pull rod, the second sliding member is assembled on the other side of the driving screw, and one end of the second sliding member is further assembled with the pull rod, and the pull rod is disposed toward one side of the bottom plate assembly.

As a further scheme of the invention, the bottom plate component further comprises a clamping groove, and the clamping groove is arranged at the bottom of the bottom plate and matched with the pull rod.

As a further scheme of the invention, the top plate assembly further comprises a connecting seat and a rotary support, the connecting seat is arranged at the top of the top plate, and the rotary support is rotatably assembled on the connecting seat.

As a further scheme of the invention, the cotton filling mechanism further comprises mounting grooves and elastic columns, wherein the mounting grooves are distributed on the partition plate in an array manner, and the elastic columns are elastically inserted into the mounting grooves.

As a further scheme of the invention, the manufacturing and packaging equipment further comprises a telescopic assembly, the telescopic assembly comprises two groups of first connecting arms and second connecting arms, one ends of the two groups of first connecting arms are rotatably assembled on the second side shaft, one ends of the two groups of second connecting arms are movably assembled on the second side shaft, the tail ends of the two groups of first connecting arms are respectively connected with the tail ends of the two groups of second connecting arms in a transmission manner, a plurality of sliding columns are further distributed on the first connecting arms and the second connecting arms, and the sliding columns are slidably assembled in a plurality of side grooves.

As a further scheme of the invention, a positioning plate is fixedly assembled on one side of the bottom plate, and the positioning plate is slidably inserted on the plurality of carrier plates and the top plate and used for limiting sliding tracks of the carrier plates and the top plate.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

the equipment can be fed into the carrier plates with different heights through the feeding belt with the adjustable inclination angle, the equipment can be separately stacked by utilizing the movable telescopic bottom plate, the movable telescopic top plate and the carrier plates, and the equipment can be transported into the packaging box and uniformly packaged after being separated by utilizing the packaging cotton, so that the complicated steps of manually boxing and filling the packaging cotton are omitted, and the packaging efficiency of the equipment is improved.

Drawings

Fig. 1 is a schematic structural diagram of a manufacturing and packaging device based on an intelligent vehicle-mounted device according to an embodiment of the present invention.

Fig. 2 is a schematic partial enlarged structural diagram of a manufacturing and packaging device based on an intelligent vehicle-mounted device according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram illustrating a label a in a smart vehicle-mounted device based manufacturing and packaging device provided in an embodiment of the present invention.

Fig. 4 is a schematic structural diagram illustrating a mark B in a smart vehicle-mounted device based manufacturing and packaging device provided in an embodiment of the present invention.

Fig. 5 is a schematic perspective view of a telescopic assembly in a manufacturing and packaging device based on an intelligent vehicle-mounted device according to an embodiment of the present invention.

Reference numerals: 1-frame member, 101-frame, 102-feed belt, 103-fixed shaft, 104-feed belt, 105-drive belt, 2-drive mechanism, 201-drive motor, 202-drive screw, 203-first slide, 204-drive arm, 205-second slide, 206-pull rod, 207-roller, 3-bottom plate assembly, 301-bottom plate, 302-neck, 303-side shaft, 4-top plate assembly, 401-top plate, 402-connecting seat, 403-rotary support, 404-side shaft two, 5-carrier plate assembly, 501-carrier plate, 502-empty groove, 503-spacer plate, 504-side groove, 6-cotton filling mechanism, 601-cavity channel, 602-mounting groove, 603-elastic column, 604-abutting block, 605-cutting knife, 606-cotton wheel, 607-wheel, 7-roller assembly, 701-wheel carrier, 702-elastic seat, 703-rolling wheel, 8-telescopic assembly, 801-first connecting arm, 802-second connecting arm, 803-sliding connecting column, 803-positioning plate.

Detailed Description

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-5, the manufacturing and packaging equipment based on the intelligent vehicle-mounted equipment in an embodiment of the present invention includes a frame member 1, where the frame member 1 includes a frame 101, a feeding belt 102, a fixed shaft 103 and a feeding belt 104, the feeding belt 102 is mounted on the frame 101, the fixed shaft 103 is disposed on one side of the feeding belt 102, one end of the feeding belt 104 is rotatably mounted on the fixed shaft 103, and the feeding belt 104 and the feeding belt 102 are mounted and connected through a driving belt 105; the driving mechanism 2 comprises a driving motor 201, a driving screw 202 and a first sliding piece 203, the driving motor 201 is fixedly assembled on one side of the rack 101, the tail end of the driving motor 201 is assembled and connected with the driving screw 202, the first sliding piece 203 is assembled on the driving screw 202, one end of the first sliding piece 203 is rotatably connected with a driving arm 204, and the tail end of the driving arm 204 is movably connected with the feeding belt 104; the bottom plate component 3 comprises a bottom plate 301 and side shafts 303, the bottom plate 301 is arranged on one side of the rack 101, the side shafts 303 are arranged on two sides of the bottom plate 301, and the top of the bottom plate 301 is also provided with a roller component 7; the top plate assembly 4 comprises a top plate 401, the top plate 401 is arranged at one end of the bottom plate 301 in parallel, two side shafts 404 are arranged at two sides of the top plate 401, and a cotton filling mechanism 6 is arranged at the bottom of the top plate 401; the carrier plate assembly 5 comprises carrier plates 501, empty slots 502 and partition plates 503, a plurality of groups of carrier plates 501 are arranged between the bottom plate 301 and the top plate 401 in parallel, the empty slots 502 are arranged at the tops of the carrier plates 501, the partition plates 503 are arranged at the bottoms of the carrier plates 501, the roller assemblies 7 are assembled in the empty slots 502, the cotton filling mechanism 6 is assembled at one side of the partition plates 503, and side slots 504 are also arranged at two sides of the carrier plates 501; the cotton filling mechanism 6 comprises a cavity channel 601, a butt joint block 604, a cotton wheel 606 and a material pressing wheel 607, wherein the cavity channel 601 is arranged between the support plate 501 and the partition plate 503, the butt joint block 604 is elastically and movably inserted into the partition plate 503, one end of the butt joint block 604 is fixedly provided with a cutting knife 605, the cotton wheel 606 is assembled outside the support plate 501, and the material pressing wheel 607 is assembled at one side of the cavity channel 601 and is in linkage with the cotton wheel 606; the rolling roller assembly 7 comprises a wheel frame 701, an elastic seat 702 and rolling wheels 703, the wheel frame 701 is movably arranged at one end of the carrier plate 501 and the bottom plate 301, the wheel frame 701 is elastically connected with the bottom plate 301 and the carrier plate 501 through the elastic seat 702, and the wheel frame 701 is further provided with a plurality of rolling wheels 703 in an array manner; the manufacturing and packaging equipment further comprises a telescopic assembly 8, the telescopic assembly 8 comprises two groups of first connecting arms 801 and second connecting arms 802, one ends of the two groups of first connecting arms 801 are rotatably assembled on the side shaft II 404, one ends of the two groups of second connecting arms 802 are movably assembled on the side shaft 303, the tail ends of the two groups of first connecting arms 801 are respectively connected with the tail ends of the two groups of second connecting arms 802 in a transmission manner, a plurality of sliding columns 803 are further distributed on the first connecting arms 801 and the second connecting arms 802, and the sliding columns 803 are assembled in the side grooves 504 in a sliding manner.

In practical application, when the device is used for packaging vehicle-mounted equipment, firstly, the equipment to be packaged is conveyed to one side of the feeding belt 104 through the feeding belt 102 arranged on the rack 101, and the feeding belt 104 and the feeding belt 102 are in transmission connection through the transmission belt 105, so that the feeding belt 104 and the feeding belt 102 rotate in the same direction, the equipment moves along the arrangement direction of the feeding belt 104, the rotation of the driving motor 201 can drive the driving screw 202 to rotate, the first sliding member 203 can linearly slide along with the rotation of the driving screw 202, the inclination angle of the feeding belt 104 is adjusted through the driving arm 204 at one end of the first sliding member 203, so that the equipment can be respectively conveyed to a plurality of layers of carrier plates 501 with different heights, and when the equipment is conveyed to the carrier plate 501, the equipment can continuously roll on the rolling wheel 703 after moving to the surface of the wheel frame 701, and can be adjusted by the inclination angle of the feeding belt 104, the multiple sets of equipment are respectively fed onto the carrier plates 501 with different heights, simultaneously, under the drive of a motor, a cotton wheel 606 arranged on one side of the carrier plate 501 can rotate, packaged cotton is fed into a cavity channel 601 through a pressure roller 607, the packaged cotton enters between the carrier plate 501 and the partition plate 503 along the cavity channel 601, the rotation of the cotton wheel 606 is stopped after the cotton wheel is rotated to a fixed number of circles, at the moment, the first connecting arm 801 and the second connecting arm 802 are driven to move through an external electric telescopic rod, the tail end of the electric telescopic rod is connected to a connecting point of the first connecting arm 801 and the second connecting arm 802, as the tail end of the first connecting arm 801 is rotatably connected to a second side shaft 404 and the tail end of the second connecting arm 802 is rotatably connected to a side shaft 303, the distance between the bottom plate 301 and the top plate 401 can be adjusted by pressing the first connecting arm 801 and the second connecting arm 802, and a plurality of sliding columns 803 on the first connecting arm 801 and the second connecting arm 802 are utilized, the distance among the plurality of carrier plates 501 is synchronously adjusted, when equipment is loaded on the plurality of carrier plates 501, the distance among the bottom plate 301, the top plate 401 and the carrier plates 501 can be reduced, the equipment is pressed among the bottom plate 301, the top plate 401 and the carrier plates 501 in the process, at the moment, the cutting knife 605 at one end of the abutting block 604 is pressed towards one side of the packaging cotton, the packaging cotton is cut off, after the bottom plate 301, the top plate 401 and the carrier plates 501 clamp the plurality of equipment, the bottom plate 301, the top plate 401 and the carrier plates 501 are integrally hoisted to the upper side of the packaging box through the connecting seat 402 and the rotary support 403 arranged at the top of the top plate 401, the inlet end of the equipment faces the packaging box by rotating the bottom plate 301, the top plate 401 and the carrier plates 501, the telescopic assembly 8 drives the bottom plate 301, the top plate 401 and the carrier plates 501 to be loosened, the equipment and the packaging cotton arranged among the equipment at intervals can be simultaneously placed into the packaging box, automatic stacking of the equipment is completed, the separation is realized through the packaging cotton, the labor cost is saved, and the packaging efficiency is improved.

In one aspect of the present embodiment, the driving motor and the electric telescopic rod used in the cotton wheel 606 and the telescopic assembly 8 are not particularly limited.

Referring to fig. 1, in a preferred embodiment of the present invention, the driving mechanism 2 further includes a second sliding member 205, a pull rod 206 and rollers 207, the second sliding member 205 is assembled at the other side of the driving screw 202, one end of the second sliding member 205 is also assembled with the pull rod 206, the pull rod 206 is disposed towards one side of the bottom plate assembly 3, and the rollers 207 are arranged on the rack 101 in an array; the bottom plate component 3 further comprises a clamping groove 302, wherein the clamping groove 302 is arranged at the bottom of the bottom plate 301 and is matched with the pull rod 206.

In practical application of this embodiment, after the bottom plate 301 is placed on the plurality of rollers 207, the locking slot 302 is locked on the pull rod 206, and since the second sliding member 205 is assembled at the other end of the driving screw 202, when the inclination angle of one side of the feeding belt 104 is increased, the second sliding member 205 can pull the pull rod 206 to slide towards one side of the feeding belt 104, so that the bottom plate 301 moves towards the feeding belt 104 along with the pull rod 206, and the plurality of carrier plates 501 are always close to one side of the feeding belt 104, thereby facilitating the equipment to be fed onto the carrier plates 501.

In one case of this embodiment, the feeding principle on one side of the bottom plate 301 is the same, and details are not described herein.

Referring to fig. 2, in a preferred embodiment of the present invention, the top plate assembly 4 further includes a connecting base 402 and a pivoting support 403, the connecting base 402 is disposed on the top of the top plate 401, and the pivoting support 403 is rotatably assembled on the connecting base 402.

In practical applications, the pivoting support 403 may draw the connecting socket 402 to move longitudinally, and the connecting socket 402 and the pivoting support 403 may be driven by an external power unit to rotate, so that the bottom plate 301, the top plate 401 and the carrier plate 501 mounted on one side of the connecting socket 402 may rotate horizontally.

Referring to fig. 1, in a preferred embodiment of the present invention, the cotton filling mechanism 6 further includes mounting slots 602 and elastic columns 603, the mounting slots 602 are arranged on the partition 503 in an array, and the elastic columns 603 are elastically inserted into the mounting slots 602.

In practical application, when the distance between the bottom plate 301, the top plate 401 and the carrier plate 501 is not reduced, one end of the device is elastically connected with the carrier plate 501 through the wheel carrier 701, so that the device can press the elastic columns 603 close to one side of the device and the partition plate 503 towards one side of the carrier plate 501 when being extruded, the tail ends of the elastic columns 603 are pressed on the packaging cotton in the cavity channel 601, in the process of vertical hoisting, the packaging cotton is prevented from falling off, and when the telescopic assembly 8 drives the bottom plate 301, the top plate 401 and the carrier plate 501 to loosen, the packaging cotton is sent into the packaging box along with the device.

Referring to fig. 5, in a preferred embodiment of the present invention, a positioning plate 9 is further fixedly mounted on one side of the bottom plate 301, the positioning plate 9 is slidably inserted into the plurality of carrier plates 501 and the top plate 401 to define the sliding tracks of the carrier plates 501 and the top plate 401, and the positioning plate 9 is fixedly connected to the connecting base 402.

In practical application of this embodiment, the positioning plate 9 can limit the sliding tracks of the carrier plate 501 and the top plate 401, and is also disposed at two ends of the apparatus, so as to prevent the apparatus from sliding off the side wings.

In one embodiment, the positioning plate 9 is fixedly connected to the connecting seat 402, and the positioning plate 9 and the bottom plate 301 can be driven to move integrally by lifting the connecting seat 402.

The embodiment of the invention provides manufacturing and packaging equipment based on intelligent vehicle-mounted equipment, the equipment can be fed into carrier plates 501 with different heights through a feeding belt 104 with an adjustable inclination angle, a plurality of pieces of equipment can be separately stacked by utilizing a movable telescopic bottom plate 301, a movable telescopic top plate 401 and the carrier plates 501, the equipment is separated by packaging cotton and then transported into a packaging box for unified packaging, the complex steps of manual boxing and packaging cotton filling are omitted, and the packaging efficiency of the equipment is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A manufacturing and packaging device based on intelligent vehicle-mounted equipment is characterized by comprising:

the feeding device comprises a rack member, a feeding belt, a fixed shaft and a feeding belt, wherein the rack member comprises a rack, the feeding belt, the fixed shaft and the feeding belt;

the device comprises a support plate assembly, a roller assembly and a cotton filling mechanism, wherein the support plate assembly comprises support plates, empty grooves and spacing plates, a plurality of groups of support plates are parallelly distributed between a bottom plate and a top plate, the empty grooves are distributed at the tops of the support plates, the spacing plates are distributed at the bottoms of the support plates, the roller assembly is assembled in the empty grooves, the cotton filling mechanism is assembled at one side of each spacing plate, and side grooves are also distributed at two sides of each support plate;

the cotton filling mechanism comprises a cavity channel, a butting block, a cotton wheel and a pressure wheel, the cavity channel is arranged between the support plate and the partition plate, the butting block is elastically and movably inserted into the partition plate, a cutting knife is fixedly assembled at one end of the butting block, the cotton wheel is assembled outside the support plate, and the pressure wheel is assembled at one side of the cavity channel and is in linkage with the cotton wheel; and

2. The intelligent vehicle-mounted device based manufacturing and packaging equipment as claimed in claim 1, wherein the driving mechanism further comprises a second sliding member and a pull rod, the second sliding member is assembled on the other side of the driving screw rod, one end of the second sliding member is further assembled with the pull rod, and the pull rod is arranged towards one side of the bottom plate assembly.

3. The manufacturing and packaging equipment based on the intelligent vehicle-mounted equipment is characterized in that the bottom plate assembly further comprises a clamping groove, and the clamping groove is arranged at the bottom of the bottom plate and matched with the pull rod.

4. The intelligent vehicle-mounted device based manufacturing and packaging equipment as claimed in claim 1, wherein the top plate assembly further comprises a connecting seat and a rotating support, the connecting seat is arranged on the top of the top plate, and the rotating support is rotatably assembled on the connecting seat.

5. The intelligent vehicle-mounted device based manufacturing and packaging equipment according to claim 1, wherein the cotton-filling mechanism further comprises mounting grooves and elastic columns, the mounting grooves are arranged on the partition plate in an array mode, and the elastic columns are elastically inserted into the mounting grooves.

6. The intelligent vehicle-mounted device based manufacturing and packaging equipment as claimed in claim 1, further comprising a telescopic assembly, wherein the telescopic assembly comprises two sets of first connecting arms and second connecting arms, one ends of the two sets of first connecting arms are rotatably assembled on the second side shaft, one ends of the two sets of second connecting arms are movably assembled on the second side shaft, the tail ends of the two sets of first connecting arms are rotatably connected with the tail ends of the two sets of second connecting arms respectively, and a plurality of sliding columns are further distributed on the first connecting arms and the second connecting arms and are slidably assembled in a plurality of side grooves.

7. The intelligent vehicle-mounted device-based package manufacturing equipment according to claim 1, wherein a positioning plate is fixedly assembled on one side of the bottom plate, and the positioning plate is slidably inserted on the plurality of carrier plates and the top plate to define sliding tracks of the carrier plates and the top plate.